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m2m模型翻译
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MTtranslateService/Lib/site-packages/mpmath/tests/test_division.py

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m2m模型翻译
6 months ago
  1. from mpmath.libmp import *
  2. from mpmath import mpf, mp
  4. from random import randint, choice, seed
  6. all_modes = [round_floor, round_ceiling, round_down, round_up, round_nearest]
  8. fb = from_bstr
  9. fi = from_int
  10. ff = from_float
  13. def test_div_1_3():
  14. a = fi(1)
  15. b = fi(3)
  16. c = fi(-1)
  18. # floor rounds down, ceiling rounds up
  19. assert mpf_div(a, b, 7, round_floor) == fb('0.01010101')
  20. assert mpf_div(a, b, 7, round_ceiling) == fb('0.01010110')
  21. assert mpf_div(a, b, 7, round_down) == fb('0.01010101')
  22. assert mpf_div(a, b, 7, round_up) == fb('0.01010110')
  23. assert mpf_div(a, b, 7, round_nearest) == fb('0.01010101')
  25. # floor rounds up, ceiling rounds down
  26. assert mpf_div(c, b, 7, round_floor) == fb('-0.01010110')
  27. assert mpf_div(c, b, 7, round_ceiling) == fb('-0.01010101')
  28. assert mpf_div(c, b, 7, round_down) == fb('-0.01010101')
  29. assert mpf_div(c, b, 7, round_up) == fb('-0.01010110')
  30. assert mpf_div(c, b, 7, round_nearest) == fb('-0.01010101')
  32. def test_mpf_divi_1_3():
  33. a = 1
  34. b = fi(3)
  35. c = -1
  36. assert mpf_rdiv_int(a, b, 7, round_floor) == fb('0.01010101')
  37. assert mpf_rdiv_int(a, b, 7, round_ceiling) == fb('0.01010110')
  38. assert mpf_rdiv_int(a, b, 7, round_down) == fb('0.01010101')
  39. assert mpf_rdiv_int(a, b, 7, round_up) == fb('0.01010110')
  40. assert mpf_rdiv_int(a, b, 7, round_nearest) == fb('0.01010101')
  41. assert mpf_rdiv_int(c, b, 7, round_floor) == fb('-0.01010110')
  42. assert mpf_rdiv_int(c, b, 7, round_ceiling) == fb('-0.01010101')
  43. assert mpf_rdiv_int(c, b, 7, round_down) == fb('-0.01010101')
  44. assert mpf_rdiv_int(c, b, 7, round_up) == fb('-0.01010110')
  45. assert mpf_rdiv_int(c, b, 7, round_nearest) == fb('-0.01010101')
  48. def test_div_300():
  50. q = fi(1000000)
  51. a = fi(300499999) # a/q is a little less than a half-integer
  52. b = fi(300500000) # b/q exactly a half-integer
  53. c = fi(300500001) # c/q is a little more than a half-integer
  55. # Check nearest integer rounding (prec=9 as 2**8 < 300 < 2**9)
  57. assert mpf_div(a, q, 9, round_down) == fi(300)
  58. assert mpf_div(b, q, 9, round_down) == fi(300)
  59. assert mpf_div(c, q, 9, round_down) == fi(300)
  60. assert mpf_div(a, q, 9, round_up) == fi(301)
  61. assert mpf_div(b, q, 9, round_up) == fi(301)
  62. assert mpf_div(c, q, 9, round_up) == fi(301)
  64. # Nearest even integer is down
  65. assert mpf_div(a, q, 9, round_nearest) == fi(300)
  66. assert mpf_div(b, q, 9, round_nearest) == fi(300)
  67. assert mpf_div(c, q, 9, round_nearest) == fi(301)
  69. # Nearest even integer is up
  70. a = fi(301499999)
  71. b = fi(301500000)
  72. c = fi(301500001)
  73. assert mpf_div(a, q, 9, round_nearest) == fi(301)
  74. assert mpf_div(b, q, 9, round_nearest) == fi(302)
  75. assert mpf_div(c, q, 9, round_nearest) == fi(302)
  78. def test_tight_integer_division():
  79. # Test that integer division at tightest possible precision is exact
  80. N = 100
  81. seed(1)
  82. for i in range(N):
  83. a = choice([1, -1]) * randint(1, 1<<randint(10, 100))
  84. b = choice([1, -1]) * randint(1, 1<<randint(10, 100))
  85. p = a * b
  86. width = bitcount(abs(b)) - trailing(b)
  87. a = fi(a); b = fi(b); p = fi(p)
  88. for mode in all_modes:
  89. assert mpf_div(p, a, width, mode) == b
  92. def test_epsilon_rounding():
  93. # Verify that mpf_div uses infinite precision; this result will
  94. # appear to be exactly 0.101 to a near-sighted algorithm
  96. a = fb('0.101' + ('0'*200) + '1')
  97. b = fb('1.10101')
  98. c = mpf_mul(a, b, 250, round_floor) # exact
  99. assert mpf_div(c, b, bitcount(a[1]), round_floor) == a # exact
  101. assert mpf_div(c, b, 2, round_down) == fb('0.10')
  102. assert mpf_div(c, b, 3, round_down) == fb('0.101')
  103. assert mpf_div(c, b, 2, round_up) == fb('0.11')
  104. assert mpf_div(c, b, 3, round_up) == fb('0.110')
  105. assert mpf_div(c, b, 2, round_floor) == fb('0.10')
  106. assert mpf_div(c, b, 3, round_floor) == fb('0.101')
  107. assert mpf_div(c, b, 2, round_ceiling) == fb('0.11')
  108. assert mpf_div(c, b, 3, round_ceiling) == fb('0.110')
  110. # The same for negative numbers
  111. a = fb('-0.101' + ('0'*200) + '1')
  112. b = fb('1.10101')
  113. c = mpf_mul(a, b, 250, round_floor)
  114. assert mpf_div(c, b, bitcount(a[1]), round_floor) == a
  116. assert mpf_div(c, b, 2, round_down) == fb('-0.10')
  117. assert mpf_div(c, b, 3, round_up) == fb('-0.110')
  119. # Floor goes up, ceiling goes down
  120. assert mpf_div(c, b, 2, round_floor) == fb('-0.11')
  121. assert mpf_div(c, b, 3, round_floor) == fb('-0.110')
  122. assert mpf_div(c, b, 2, round_ceiling) == fb('-0.10')
  123. assert mpf_div(c, b, 3, round_ceiling) == fb('-0.101')
  126. def test_mod():
  127. mp.dps = 15
  128. assert mpf(234) % 1 == 0
  129. assert mpf(-3) % 256 == 253
  130. assert mpf(0.25) % 23490.5 == 0.25
  131. assert mpf(0.25) % -23490.5 == -23490.25
  132. assert mpf(-0.25) % 23490.5 == 23490.25
  133. assert mpf(-0.25) % -23490.5 == -0.25
  134. # Check that these cases are handled efficiently
  135. assert mpf('1e10000000000') % 1 == 0
  136. assert mpf('1.23e-1000000000') % 1 == mpf('1.23e-1000000000')
  137. # test __rmod__
  138. assert 3 % mpf('1.75') == 1.25
  140. def test_div_negative_rnd_bug():
  141. mp.dps = 15
  142. assert (-3) / mpf('0.1531879017645047') == mpf('-19.583791966887116')
  143. assert mpf('-2.6342475750861301') / mpf('0.35126216427941814') == mpf('-7.4993775104985909')